Dispersants are also called wetting and dispersing agents. On the one hand, they have a wetting effect. On the other hand, one end of their active groups can be adsorbed on the powder and crushed into fine particles. The other end of the pigment surface of the particles solvates into the base material to form an adsorption layer (the more adsorption groups, the longer the chain links, and the thicker the adsorption layer), generating charge repulsion (water-based paint) or entropy repulsion (solvent-based paint), so that The pigment particles are dispersed and suspended in the paint for a long time to avoid re-flocculation, thus ensuring the storage stability of the finished paint system.
Commonly used dispersant types:
1. Anionic wetting and dispersing agents
Most It is composed of a non-polar negatively charged lipophilic hydrocarbon chain part and a polar hydrophilic group. The two groups are located at both ends of the molecule, forming an asymmetric hydrophilic and lipophilic molecular structure. Its varieties include: sodium oleate C17H33COONa, carboxylate, sulfate ester salt (R—O—SO3Na), sulfonate (R—SO3Na), etc. Anionic dispersants have good compatibility, and polycarboxylic acid polymers can also be used in solvent-based coatings and are widely used as controlled flocculation dispersants.
2. Cationic wetting and dispersing agents
It is a non-polar compound with a positive charge, mainly including amine salts, quaternary ammonium salts, and pyridinium salts wait. Cationic surfactants have strong adsorption power and have good dispersion effects on carbon black, various iron oxides, and organic pigments. However, attention should be paid to its chemical reaction with the carboxyl groups in the base material, and care should be taken not to use it at the same time with anionic dispersants.
3. Controlled free radical hyperdispersant
2. The role of dispersant
1. Improve gloss and increase leveling effect.
2. Prevent floating color and blooming.
3. Improve coloring power.
4. Reduce viscosity and increase pigment loading.
5. Reduce flocculation and increase construction and usability.
6. Prevent return to coarseness and increase storage stability.
7. Increase color rendering and color saturation.
8. Increase transparency or hiding power.
9. Improve grinding efficiency and reduce production costs.
10. Prevent settlement.